Trigeneration is the simultaneous production of three forms of energy - typically, Cooling, Heating and Power - from only one fuel input.

Stated
another way, our trigeneration power plants produce three different types of energy for the price of one.

Trigeneration energy systems now exceed the efficiency of central power plants by almost 300% as overall trigeneration system efficiency is about 90%. Typical "central" power plants, that do not need the heat generated from the combustion and power generation process, are only about 33% efficient.

Basically, a trigeneration power plant is a cogeneration power plant that has added absorption chillers for producing chilled water from the heat that would have been wasted from a cogeneration power plant.

In addition to the economic benefits and advantages, trigeneration plants reduce our dependence on foreign energy supplies and help our environment by dramatically reducing greenhouse gas emissions such as carbon dioxide - when compared to typical power plants.
Trigeneration has been hailed the "hat-trick of the energy industry" with system efficiencies approaching and exceeding 90%.

Trigeneration plants are very energy efficient, conserve natural resources and reduce fuel consumption as the system operates at such high efficiencies.
Cogeneration and trigeneration power plants are about 90% efficient and approximately 300% more efficient than "central power plants" that average 27% to 40% efficiency. When fueled with renewable fuel, cogeneration and trigeneration plants are carbon neutral, producing no greenhouse gas emissions and the optimum solution for clients seeking to reduce their energy expenses and greenhouse gas emissions.

Trigeneration
Diagram & Description
Trigeneration plaants' have the highest system efficiencies and are
about 300 % more efficient than typical central power plants

Companies and industries that would likely benefit from installation of their
own Trigeneration plant include;

Today's
electric utility industry was "born" in the 1930's, when fossil fuel
prices were cheap, and the cost of wheeling the electricity via transmission
power lines, was also cheap. "Central" power plants could be
located hundreds of miles from the load centers, or cities, where the
electricity was needed. These extreme inefficiencies and cheap fossil fuel
prices have added a considerable economic and environmental burden to the
consumers and the planet.

Centralized
energy is found in the form of electric utility companies that generate power
from "central" power plants. Central power plants are highly
inefficient, averaging only 33% net system efficiency. This means that the
power coming to your home or business - including the line losses and
transmission inefficiencies of moving the power - has lost 75% to as much as 80%
energy it started with at the "central" power plant. These
losses and inefficiencies translate into significantly increased energy expenses
by the residential and commercial consumers.

The
electric power
generation, transmission and distribution system (the electric
"grid") is changing and evolving from the electric grid of the
19th and 20th centuries, which was inefficient, highly-polluting, very
expensive and
“dumb.”

The "old" way of generating and distributing
energy resembles this slide:

The electric grid of the 21st century (see slide below)
will be
Decentralized, Smart, Efficient and provide "carbon
free energy" and "pollution free
power” to customers who remain on the
electric grid. Some customers will choose to dis-connect from the
grid entirely.
(Electric grid represented by the small light blue circles in the slide below.)

For
generating power after the sun sets, many
owners/developers of concentrated
solar powerplants are now installing "Molten
Salt Storage" systems that reserves enough energy to allow for
electricity generation throughout the nighttime period.

Steam turbines and gas turbines powered by coal, uranium,
oil and natural gas are the fuels used today for generating power and electric grid
stability. These fuels provide both base-load and peak power. However,
these same steam turbines can also be powered by the high temperature
heat from concentrated
solar power plants.

Concentrated
solar power plants
in the 30 MW - 200 MW range are now operating successfully in locations from California
to Europe. Nearly every day now, new concentrated
solar power plants
are being planned for construction. The concentrating solar collectors are
very efficient and they also completely replace the fossil fuels that were used
in traditional power plants. Today's concentrated
solar powerplants
generate the heat needed to generate electricity at a cost equivalent to $50 -
$60 per barrel of oil (equivalent). This cost is expected be slashed by
50% to below $25 - $30 per barrel in the next 10 years.

Just like conventional
fossil-fueled power plants, concentrated
solar power plants
generate base-load and peaking power electricity.

Since 1750, humans have emitted over 5 trillion pounds of carbon
emissions into
the atmosphere. Roughly half of this has ended up in the oceans where it is
beginning to damage the coral reefs. The other half is still in the atmosphere
and causing global warming. Each pound of CO2 takes up as much space as a 500
pound person.

The formula (which should be good for a year or two) is:
C(t) = 2.58 ×1012 + 1240×t, where t is seconds since the start of 2007.

“spending
hundreds and hundreds and hundreds of billions of dollars every year for
oil, much of it from the Middle East, is just about the single stupidest
thing that modern society could possibly do. It’s very difficult to think of anything
more idiotic than that.” ~ R. James Woolsey, Jr., former Director of the CIA

According to R. James
Woolsey, former Director of the Central Intelligence Agency, “The basic insight is to realize that global warming, the geopolitics of oil, and warfare in the Persian Gulf are not separate problems — they are aspects of a single problem, the West’s dependence on oil.”